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|
// SPDX-License-Identifier: GPL-2.0
use kernel::{
device,
dma::CoherentAllocation,
dma_write,
io::poll::read_poll_timeout,
pci,
prelude::*,
time::Delta, //
};
use crate::{
driver::Bar0,
falcon::{
gsp::Gsp,
sec2::Sec2,
Falcon, //
},
fb::FbLayout,
firmware::{
booter::{
BooterFirmware,
BooterKind, //
},
fwsec::{
FwsecCommand,
FwsecFirmware, //
},
gsp::GspFirmware,
FIRMWARE_VERSION, //
},
gpu::Chipset,
gsp::{
commands,
sequencer::{
GspSequencer,
GspSequencerParams, //
},
GspFwWprMeta, //
},
regs,
vbios::Vbios,
};
impl super::Gsp {
/// Helper function to load and run the FWSEC-FRTS firmware and confirm that it has properly
/// created the WPR2 region.
fn run_fwsec_frts(
dev: &device::Device<device::Bound>,
falcon: &Falcon<Gsp>,
bar: &Bar0,
bios: &Vbios,
fb_layout: &FbLayout,
) -> Result<()> {
// Check that the WPR2 region does not already exists - if it does, we cannot run
// FWSEC-FRTS until the GPU is reset.
if regs::NV_PFB_PRI_MMU_WPR2_ADDR_HI::read(bar).higher_bound() != 0 {
dev_err!(
dev,
"WPR2 region already exists - GPU needs to be reset to proceed\n"
);
return Err(EBUSY);
}
let fwsec_frts = FwsecFirmware::new(
dev,
falcon,
bar,
bios,
FwsecCommand::Frts {
frts_addr: fb_layout.frts.start,
frts_size: fb_layout.frts.end - fb_layout.frts.start,
},
)?;
// Run FWSEC-FRTS to create the WPR2 region.
fwsec_frts.run(dev, falcon, bar)?;
// SCRATCH_E contains the error code for FWSEC-FRTS.
let frts_status = regs::NV_PBUS_SW_SCRATCH_0E_FRTS_ERR::read(bar).frts_err_code();
if frts_status != 0 {
dev_err!(
dev,
"FWSEC-FRTS returned with error code {:#x}",
frts_status
);
return Err(EIO);
}
// Check that the WPR2 region has been created as we requested.
let (wpr2_lo, wpr2_hi) = (
regs::NV_PFB_PRI_MMU_WPR2_ADDR_LO::read(bar).lower_bound(),
regs::NV_PFB_PRI_MMU_WPR2_ADDR_HI::read(bar).higher_bound(),
);
match (wpr2_lo, wpr2_hi) {
(_, 0) => {
dev_err!(dev, "WPR2 region not created after running FWSEC-FRTS\n");
Err(EIO)
}
(wpr2_lo, _) if wpr2_lo != fb_layout.frts.start => {
dev_err!(
dev,
"WPR2 region created at unexpected address {:#x}; expected {:#x}\n",
wpr2_lo,
fb_layout.frts.start,
);
Err(EIO)
}
(wpr2_lo, wpr2_hi) => {
dev_dbg!(dev, "WPR2: {:#x}-{:#x}\n", wpr2_lo, wpr2_hi);
dev_dbg!(dev, "GPU instance built\n");
Ok(())
}
}
}
/// Attempt to boot the GSP.
///
/// This is a GPU-dependent and complex procedure that involves loading firmware files from
/// user-space, patching them with signatures, and building firmware-specific intricate data
/// structures that the GSP will use at runtime.
///
/// Upon return, the GSP is up and running, and its runtime object given as return value.
pub(crate) fn boot(
mut self: Pin<&mut Self>,
pdev: &pci::Device<device::Bound>,
bar: &Bar0,
chipset: Chipset,
gsp_falcon: &Falcon<Gsp>,
sec2_falcon: &Falcon<Sec2>,
) -> Result {
let dev = pdev.as_ref();
let bios = Vbios::new(dev, bar)?;
let gsp_fw = KBox::pin_init(
GspFirmware::new(dev, chipset, FIRMWARE_VERSION)?,
GFP_KERNEL,
)?;
let fb_layout = FbLayout::new(chipset, bar, &gsp_fw)?;
dev_dbg!(dev, "{:#x?}\n", fb_layout);
Self::run_fwsec_frts(dev, gsp_falcon, bar, &bios, &fb_layout)?;
let booter_loader = BooterFirmware::new(
dev,
BooterKind::Loader,
chipset,
FIRMWARE_VERSION,
sec2_falcon,
bar,
)?;
let wpr_meta =
CoherentAllocation::<GspFwWprMeta>::alloc_coherent(dev, 1, GFP_KERNEL | __GFP_ZERO)?;
dma_write!(wpr_meta[0] = GspFwWprMeta::new(&gsp_fw, &fb_layout))?;
self.cmdq
.send_command(bar, commands::SetSystemInfo::new(pdev))?;
self.cmdq.send_command(bar, commands::SetRegistry::new())?;
gsp_falcon.reset(bar)?;
let libos_handle = self.libos.dma_handle();
let (mbox0, mbox1) = gsp_falcon.boot(
bar,
Some(libos_handle as u32),
Some((libos_handle >> 32) as u32),
)?;
dev_dbg!(
pdev.as_ref(),
"GSP MBOX0: {:#x}, MBOX1: {:#x}\n",
mbox0,
mbox1
);
dev_dbg!(
pdev.as_ref(),
"Using SEC2 to load and run the booter_load firmware...\n"
);
sec2_falcon.reset(bar)?;
sec2_falcon.dma_load(bar, &booter_loader)?;
let wpr_handle = wpr_meta.dma_handle();
let (mbox0, mbox1) = sec2_falcon.boot(
bar,
Some(wpr_handle as u32),
Some((wpr_handle >> 32) as u32),
)?;
dev_dbg!(
pdev.as_ref(),
"SEC2 MBOX0: {:#x}, MBOX1{:#x}\n",
mbox0,
mbox1
);
if mbox0 != 0 {
dev_err!(
pdev.as_ref(),
"Booter-load failed with error {:#x}\n",
mbox0
);
return Err(ENODEV);
}
gsp_falcon.write_os_version(bar, gsp_fw.bootloader.app_version);
// Poll for RISC-V to become active before running sequencer
read_poll_timeout(
|| Ok(gsp_falcon.is_riscv_active(bar)),
|val: &bool| *val,
Delta::from_millis(10),
Delta::from_secs(5),
)?;
dev_dbg!(
pdev.as_ref(),
"RISC-V active? {}\n",
gsp_falcon.is_riscv_active(bar),
);
// Create and run the GSP sequencer.
let seq_params = GspSequencerParams {
bootloader_app_version: gsp_fw.bootloader.app_version,
libos_dma_handle: libos_handle,
gsp_falcon,
sec2_falcon,
dev: pdev.as_ref().into(),
bar,
};
GspSequencer::run(&mut self.cmdq, seq_params)?;
// Wait until GSP is fully initialized.
commands::wait_gsp_init_done(&mut self.cmdq)?;
// Obtain and display basic GPU information.
let info = commands::get_gsp_info(&mut self.cmdq, bar)?;
dev_info!(
pdev.as_ref(),
"GPU name: {}\n",
info.gpu_name().unwrap_or("invalid GPU name")
);
Ok(())
}
}
|
